Using Bayesian networks for the assessment of underwater scour for road and railway bridges

Andrea Maroni*, Enrico Tubaldi, Dimitri V. Val, Hazel McDonald, Daniele Zonta

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

12 Citations (Scopus)
76 Downloads (Pure)


Flood-induced scour is among the most common external causes of bridge failures worldwide. In the United States, scour is the cause of 22 bridges fails every year, whereas in the UK, it contributed significantly to the 138 collapses of bridges in the last century. Scour assessments are currently based on visual inspections, which are time-consuming and expensive. Nowadays, sensor and communication technologies offer the possibility to assess in real time the scour depth at critical bridge locations; yet, monitoring an entire infrastructure network is not economically feasible. A way to overcome this limitation is to instal scour monitoring systems at critical bridge locations, and then extend the piece of information gained to the other assets exploiting the correlations present in the system. In this article, we propose a scour hazard model for road and railway bridge scour management that utilises information from a limited number of scour monitoring systems to achieve a more confined estimate of the scour risk for a bridge network. A Bayesian network is used to describe the conditional dependencies among the involved random variables and to update the scour depth distribution using data from monitoring of scour and river flow characteristics. This study constitutes the first application of Bayesian networks to bridge scour risk assessment. The proposed probabilistic framework is applied to a case study consisting of several road bridges in Scotland. The bridges cross the same river, and only one of them is instrumented with a scour monitoring system. It is demonstrated how the Bayesian network approach allows to significantly reduce the uncertainty in the scour depth at unmonitored bridges.

Original languageEnglish
Pages (from-to)2446-2460
Number of pages15
JournalStructural Health Monitoring
Issue number5
Early online date6 Oct 2020
Publication statusPublished - Sept 2021


  • Bayesian inference
  • Bayesian network
  • bridge management
  • structural health monitoring
  • Underwater scour

ASJC Scopus subject areas

  • Biophysics
  • Mechanical Engineering


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